- 更多网络例句与胶态离子相关的网络例句 [注:此内容来源于网络,仅供参考]
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"Dialysis In chemistry, separation of suspended colloidal particles from dissolved ions or small molecules via their unequal rates of diffusion through pores of semipermeable membranes (e.g., parchment, collodion, cellophane)."
渗析法:一种化学分离方法,利用通过半透膜微孔时扩散率的不同,分离悬浮的胶态粒子和溶于液体的离子或小分子的方法。
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"Dialysis In chemistry, separation of suspended colloidal particles from dissolved ions or small molecules via their unequal rates of diffusion through pore s of semipermeable membranes (e.g., parchment, collodion, cellophane)."
渗析法:一种化学分离方法,利用通过半透膜微孔时扩散率的不同,分离悬浮的胶态粒子和溶于液体的离子或小分子的方法。
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"Dialysis In chemistry, separation of suspended colloidal particles from dissolved ions or small molecule s via their unequal rates of diffusion through pores of semipermeable membranes (e.g., parchment, collodion, cellophane)."
渗析法:一种化学分离方法,利用通过半透膜微孔时扩散率的不同,分离悬浮的胶态粒子和溶于液体的离子或小分子的方法。
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"Dialysis In chemistry, separation of suspend ed colloidal particles from dissolved ions or small molecules via their unequal rates of diffusion through pores of semipermeable membranes (e.g., parchment, collodion, cellophane)."
渗析法:一种化学分离方法,利用通过半透膜微孔时扩散率的不同,分离悬浮的胶态粒子和溶于液体的离子或小分子的方法。
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"Dialysis In chemistry, separation of suspended colloidal particles from dissolved ions or small molecules via their unequal rates of diffusion through pores of semipermeable membrane s (e.g., parchment, collodion, cellophane)."
渗析法:一种化学分离方法,利用通过半透膜微孔时扩散率的不同,分离悬浮的胶态粒子和溶于液体的离子或小分子的方法。
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"Dialysis In chemistry, separation of suspended colloidal particle s from dissolved ions or small molecules via their unequal rates of diffusion through pores of semipermeable membranes (e.g., parchment, collodion, cellophane)."
渗析法:一种化学分离方法,利用通过半透膜微孔时扩散率的不同,分离悬浮的胶态粒子和溶于液体的离子或小分子的方法。
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"Dialysis In chemistry, separation of suspended colloidal particles from dissolve d ions or small molecules via their unequal rates of diffusion through pores of semipermeable membranes (e.g., parchment, collodion, cellophane)."
渗析法:一种化学分离方法,利用通过半透膜微孔时扩散率的不同,分离悬浮的胶态粒子和溶于液体的离子或小分子的方法。
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Comparing with water, the optimal heat transfer enhancement is achieved near the critical micelle concentrations of surfactants. The degree of heat transfer enhancement is different with different surfactants and is influenced by solubility characteristic, ionic nature and chemical structure of surfactants. Boiling in surfactant solutions, when compared with that in water, is observed to be more vigorous with smaller-sized, more regularly shaped and faster departure frequency bubbles, but the surfactant solutions of Triton X-100 and Triton X-114 become cloudy for the cloud point of surfactants.
和水相比,表面活性剂强化池内核态沸腾换热的最佳浓度为临界胶束浓度;不同种类表面活性剂强化换热程度不同,它们与表面活性剂的溶解特性、离子类型和化学结构有关;溶液沸腾时,沸腾汽泡的脱离直径变小,脱离频率变快和更不易聚集,但非离子表面活性Triton X-100和Triton X-114由于存在浊点其沸腾溶液变浑浊。
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The results show that proper control of additive, flocculating agent, temperature, stir speed, quantity of each agent and other process parameters could effectively remove the impurities in the coagulation bath such as the solid, big molecules in the forms of undissolved colloid and semi-colloid. The sizes of flocculates are big and loose, ready to precipitate, therefore the impurity removing effect is very ideal, greatly improving the exchange ability of the ion exchange resin in the subsequent process.
研究结果表明在选用合适的添加剂与絮凝剂,适当控制絮凝的温度、搅拌速度、各试剂的添加量和添加顺序等相关工艺参数的条件下,凝固浴中的絮状固体杂质、以未溶解的胶态和半胶态形式存在的大分子性杂质等都被去除,絮凝物块大而疏松,沉降迅速,除杂纯化效果非常理想,大大提高了后续处理工艺中阴阳离子交换树脂的处理能力。
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And coagulating aid. In the processes of flocculation and coagulation, FSA can provide quantities
程中,FSA泥沙聚沉剂可以提供数量大、螯合能力强的络合离子,能够强烈的吸附胶体及非胶态的质
- 更多网络解释与胶态离子相关的网络解释 [注:此内容来源于网络,仅供参考]
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colloid amphion:胶态两性离子
胶体结构 colloform texture | 胶态两性离子 colloid amphion | 胶质载体 colloid bearer